蛋白质-SDS-罗丹明B体系的共振光散射光谱及其分析应用

研究了阴离子表面活性剂十二烷基硫酸钠(SDS),阳离子染料罗丹明B,与蛋白质相互作用的共振光散射(RLS)光谱及用于蛋白质的测定.实验表明,在pH 4.35的酸性介质中,SDS的共振光散射强度较小,它与蛋白质结合后,共振光散射强度能得到增强,但加入阳离子染料罗丹明B后,共振光散射强度显著增强.在λ=332.0 nm处,ΔIRLS最大,并且增强的共振光散射信号与蛋白质的浓度成正比.据此建立了一种测定蛋白质的新方法,该方法灵敏度高,对HSA的检出限达到1.9 ng/mL,线性范围为0.01～5.0 μg/mL.用于人血清样品中蛋白质的测定,回收率为94.0%～105.5%.     

蛋白质与肝素结合平衡的共振散射光谱法研究

基于共振光散射光谱(RLS)研究了牛血清白蛋白(BSA)与肝素(HP)之间的结合平衡.结果表明,HP与BSA通过电子作用力以及疏水作用力结合,引起体系共振光散射增强.根据406nm的光散射增强信号建立了BSA与HP结合平衡的数学关系式,并考察了不同温度、pH及离子强度对它们之间结合平衡的影响.基于RLS数据计算了BSA...     

铜(Ⅱ)-三聚氰胺体系共振散射法检测痕量三聚氰胺

基于在pH 3.0的B-R缓冲溶液中,三聚氰胺与Cu2+形成2:1的络合物,导致体系共振光散射(RLS)强度明显增大,在405 nm处,三聚氰胺的质量浓度在0.05～9 mg/L范围内与散射强度成正比,据此建立了利用共振光散射测定三聚氰胺的新方法。检出限为0.037 mg/L。方法已用于奶制品中三聚氰胺的测定。同时探讨了反应机理。     

金纳米微粒共振光散射光谱探针测定维生素B_4-水溶性腺嘌呤的研究

建立了一种以金纳米微粒为探针共振光散射(RLS)法测定维生素B4的新方法.在弱酸性介质中(pH 4.2),金纳米微粒在635 nm有一最大共振散射峰.加入微量维生素B4后,金纳米微粒与维生素B4通过静电引力结合.形成了粒径较大的聚集体,导致RLS强度显著增强.研究了体系的共振光散射光谱特征和反应适宜条件,探讨了共振光散射增强的机理.结果表明,维生素B4质量浓度在0.1～5.0μg/mL 时与散射强度(△I)呈线性关系,检出限(3σ)为12.0 ng/mL,相对标准偏差(RSD)为2.2%.该方法已用于片剂中维生素B4的测定.     

全氟辛烷磺酸与蛋白质体系的共振光散射光谱及其分析应用

研究了牛血清白蛋白(BSA)与全氟辛烷磺酸(PFOS)相互作用的共振光散射(RLS)光谱,建立了PFOS的共振光散射分析方法。 在pH值为4.1的BR缓冲溶液中,全氟辛烷磺酸根阴离子与质子化的BSA通过静电引力和疏水作用形成离子缔合物,引起共振光散射强度(IRLS)显著增强,最大散射波长位于285.0 nm处,增强的散射信号强度与PFOS浓度在0.2～25.0 μmol/L范围内呈线性关系,据此建立了测定PFOS的光散射分析方法,检出限为20.0 nmol/L。 讨论了体系的最佳反应条件及外来物质的干扰,并探讨了反应机理。 建立的共振光散射法用于环境水样中PFOS的测定,RSD≤4.4%。     

共振光散射方法研究钙存在下十二烷基苯磺酸钠的聚集行为

利用共振光散射技术在不引入探针的条件下,建立了室温下直接测定十二烷基苯磺酸钠(SDBS)的临界胶束浓度(CMC)的方法.研究发现:在室温下,SDBS水溶液的共振光散射强度(RLS)随SDBS浓度的增加而增强;且当SDBS接近其临界胶束浓度时,RLS强度增强显著,共振光散射峰分别位于330和396 nm.396 nm处的RLS强度与SDBS浓度关系曲线呈S型曲线,本文将曲线突升起点处两条切线的交点对应的SDBS浓度,确定为SDBS的临界胶束浓度(CMC),这与荧光芘探针和电导率等方法测定结果基本一致.并利用此方法分别研究了Ca2+浓度对SDBS及其SDBS-聚乙二醇辛基苯基醚(OP)复配体系聚集行为的影响.结果表明,SDBS与OP以1∶ 3复配时,增强了体系的抗钙能力.     

双波长共振光散射技术测定药物中的格列齐特

在pH 5.45的Tris-盐酸介质中,格列齐特与溴化十六烷基吡啶-酸性品红反应生成离子缔合物,致使共振光散射(RLS)显著增强,并产生具有两个较大共振光散射峰的新光谱曲线,这两个共振散射峰分别位于620 nm和370 nm处,在此两波长处,格列齐特在0.006~0.32 mg/L范围内与缔合物的RLS增强强度(△IRLS)呈线性关系,检出限为0.0052 mg/L(单波长法,620 nm)、0.0056(单波长法,370 nm)和0.0027 mg/L(双波长法,620 nm+370 nm),据此建立了测定格列齐特的双波长共振光散射(DWO-RLS)分析法。研究了共振光散射的光谱特征、适宜反应条件、共存物质的影响及实际药品的应用。结果表明,该法用于药物中格列齐特含量的测定,加标回收率和相对标准偏差(RSD)(n=5)分别为99.03%~101.5%和1.1%~1.5%。     

健那绿共振光散射法测定水样中痕量铬(Ⅵ)

本文研究了在磷酸介质中,铬(Ⅵ)-碘化钾-健那绿(JG)体系的共振光散射(RLS)光谱,考察了它们的光谱特征;在优化条件下,确定了共振光散射强度增加值与溶液中Cr(Ⅵ)浓度的关系,提出了RLS法测定Cr(Ⅵ)的新方法。方法的线性范围为0.01~0.2 mg/L,检出限为2.00μg/L。该方法操作简便,具有较高的灵敏度和较好选择性。用于合成水样中Cr(Ⅵ)的测定,结果满意。     

聚丙烯酸与核酸相互作用的共振光散射光谱研究及其分析应用

研究了聚丙烯酸(PAA)与脱氧核糖核酸(DNA)相互作用的共振光散射(RLS)光谱.实验结果表明,在pH=2.0的B-R缓冲溶液中,PAA与DNA自身的共振光散射峰均较弱,但当二者发生静电作用形成复合物后,体系的共振光散射峰增强,散射增强程度则各不相同,其相对散射强度的顺序是fsDNA＞ctDNA＞yRNA.在一定范围...     

硫代乙酰胺共振光散射方法检测环境水样中痕量汞

在pH=3.29的酸性介质中,硫代乙酰胺(TAA)与二价汞离子发生作用产生以379.0 nm为特征峰的共振光散射(RLS)增强光谱。 在此波长下,二价汞离子的浓度与增强共振光散射强度(ΔIRLS)呈线性关系。 研究了酸度、离子强度、温度、时间以及共存物质的影响,确定了最佳测定条件,据此建立了检测痕量汞的共振光散射分析法,线性范围为0.2~10.0 μmol/L,对汞的检测限为0.02 μmol/L。 方法成功的应用于环境水样中汞离子的检测。     

Study on the interactions of chlorpromazine hydrochloride and promethazine hydrochloride with nucleic acids by resonance Rayleigh scattering spectrum

The interaction between nucleic acids and medicine molecule is one of the important research fields of nucleic acids, which is very valuable for investigating the interactive mechanisms of anti-cancer and anti-virus medicine, screening medicine in vitro, …     

Determination of nucleic acids using fluorescence probe sensitized by microemulsion

Because the fluorescence of azur A can be quenched by adding nucleic acid, a sensitive fluorometric method for determination of nucleic acids at nanogram levels was established. Using optimal conditions, the calibration curves were linear in the range of 0-6.0 microg/mL for calf thymus deoxyribonucleic acid (ct DNA) and 0-7.0 microg/mL for herring sperm DNA (hs DNA). The limits of determination were 3.5 and 3.8 ng/mL, respectively, which shows the high sensitivity of this method. Triton X-100 microemulsion was applied as a sensitive media to enhance the sensitivity. The binding mode concerning the interactions of azur A with nucleic acids was also studied and the association constant with different binding numbers was obtained. The method has been applied to the determination of nucleic acid in both synthetic and real samples, such as cauliflower and pork liver, with satisfactory results.     

Determination of nucleic acids based on shifting the association equilibrium between tetracarboxy aluminum phthalocyanine and poly-lysine

A new method based on near-infrared (near-IR) fluorescence recovery was presented for the determination of nucleic acids. This method employed a two-reagent system composed of anionic tetracarboxy aluminum phthalocyanine (AlC4Pc) and polycationic poly-lysine. The fluorescence of AlC4Pc, with the maximum excitation and emission wavelengths at 620 and 701 nm, respectively, was quenched by poly-lysine with a proper concentration, but recovered by adding nucleic acids. Under optimal conditions, the recovered fluorescence was in proportional to the concentration of nucleic acids. The linear ranges of the calibration curves were 5-200 ng mL(-1) for both calf thymus DNA (ctDNA) and fish sperm DNA (fsDNA) with the detection limit of 2.6 ng mL(-1) for ctDNA and 2.1 ng mL(-1) for fsDNA. The relative standard deviation (n = 6) was 1.9 and 1.3% for 50 ng mL(-1) ctDNA and fsDNA, respectively. The proposed method was applied to the determination of nucleic acids in synthetic samples with satisfactory results.     

The determination of DNA based on light-scattering of a complex formed with histone

The interaction of histone with nucleic acids was characterized by light-scattering measurement using a common spectrofluorometer. Thereby, a sensitive and convenient method for the determination of nucleic acids was established. At pH 4.5-6.5, the interaction of histone with nucleic acids resulted in considerable light-scattering , and four characteristic peaks at 298, 450, 503, and 551 nm were observed. The light-scattering was applied to the determination of nucleic acids. The experiments indicated that, under optimal conditions, a linear relationship was obtained between the light-scattering intensity (I(LS)) and the concentration of nucleic acids. The linear ranges were 0.02-2.0 mug ml(-1) for fish sperm DNA (fsDNA), 0.05-1.5 mug ml(-1) for calf thymus DNA (ctDNA), 0.05-2.5 mug ml(-1) for Herring testis DNA (HtDNA), and 0.05-1.5 mug ml(-1) for human placenta DNA (hpDNA). The detection limits were 2.0 ng for fish sperm DNA, 2.0 ng for calf thymus DNA, 5.0 ng for Herring testis DNA, and 3.0 ng for human placenta DNA. The nucleic acids in yeast cell extraction were determined by simple vortex extraction. The results were satisfactory, and the recovery rates were in the range of 88-108%.     

Resonance Rayleigh scattering study of the interaction of bleomycinA_5 with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in batho- chromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum condi- tions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

Determination of nucleic acids with crystal violet by a resonance light-scattering technique

For the first time, Crystal Violet (CV) was used to determine nucleic acid concentrations using the resonance light-scattering (RLS) technique. Based on the enhancement of the RLS of CV by nucleic acids, a new quantitative determination method for nucleic acids in aqueous solutions has been developed. At pH 5.03 and ionic strength 0.005 mol kg-1, the interaction of CV with nucleic acids results in three characteristic RLS peaks at 344.0, 483.0 and 666.0 nm. With 4.0 x 10(-5) mol l-1 of CV, linear relationships were found between the enhanced intensity of RLS at 666.0 nm and the concentration of nucleic acids in the range 0-2.5 micrograms ml-1 for herring sperm DNA, 0-4.0 micrograms ml-1 for calf thymus DNA and 0-4.5 micrograms ml-1 for yeast RNA. The limits of determination were 13.8 ng ml-1 for herring sperm DNA, 36.8 ng ml-1 for calf thymus DNA and 69.0 ng ml-1 for yeast RNA. The assay is convenient, rapid, inexpensive and simple.     

Simple and sensitive assay for nucleic acids by use of the resonance light-scattering technique with copper phthalocyanine tetrasulfonic acid in the presence of cetyltrimethylammonium bromide

On the basis of enhancement of resonance light scattering (RLS) of copper phthalocyanine tetrasulfonic acid (CuTSPc) by nucleic acids and cetyltrimethylammonium bromide (CTMAB) under suitable conditions, a new RLS method for determination of nucleic acids in aqueous solutions has been developed. At pH 9.80–10.95 and ionic strength 0.01 mol L^–1 (NaCl), the interaction of copper phthalocyanine tetrasulfonic acid with nucleic acids in the presence of cetyltrimethylammonium bromide results in enhanced RLS signals at 282.0 nm, 383.6 nm, and 616.2 nm in the enhanced regions. It was found that the enhanced RLS intensity at 383.6 nm was proportional to the concentration of nucleic acids within suitable ranges. The limits of detection were 10.6 ng mL^–1 for fish sperm DNA and 32.4 ng mL^–1 for calf thymus DNA when the concentration of copper phthalocyanine tetrasulfonic acid was 2.0×10^–6 mol L^–1. This method is rapid, simple and sensitive. In addition, the reagents used are relatively inexpensive, stable, and easily synthesised. The method can be applied to the determination of nucleic acids in the presence of coexisting substances, and we have applied it to the determination of DNA in synthetic samples, with satisfactory results.     

The sensitive determination of nucleic acids using resonance light scattering quenching method

It is found that in hexamethylene tetramine (HMTA)-HCl buffer of pH 7.00, nucleic acids can quench the resonance light scattering (RLS) of europium (III) (Eu3+)-2-thenoyltrifluoroacetne (TTA)-1,10-phenanthroline (Phen) system. Based on this, a sensitive method for the determination of nucleic acids is proposed. The experiments indicate that under the optimum conditions, the quenched RLS intensity is in proportion to the concentration of nucleic acids in the range of 1.0x10(-10) to 2.0x10(-6) g ml-1 for fish sperm (fsDNA), 1.0x10(-11) to 1.0x10(-6) g ml-1 for yeast RNA (yRNA), 5.0x10(-11) to 5.0x10(-7) g ml-1 for calf thymus DNA (ctDNA). Their detection limits (S/N=3) are 0.03, 0.006 and 0.002 ng ml-1, respectively. Therefore, the proposed method is the most sensitive RLS method for the determination of nucleic acids so far. The interaction between nucleic acids and Eu3+-TTA-Phen is also discussed.     

Resonance Rayleigh scattering study of the interaction of bleomycinA<Subscript>5</Subscript> with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in bathochromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum conditions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

Determination of nucleic acids with a near infrared cyanine dye using resonance light scattering technique

A new method for the determination of nucleic acids has been developed based on the enhancement effect of resonance light scattering (RLS) with a cationic near infrared (NIR) cyanine dye. Under the optimal conditions, the enhanced RLS intensity at 823 nm is proportional to the concentration of nucleic acids in the range of 0-400 ng mL-1 for both calf thymus DNA (CT DNA) and fish sperm DNA (FS DNA), 0-600 ng mL-1 for snake ovum RNA (SO RNA). The detection limits are 3.5 ng mL-1, 3.4 ng mL-1 and 2.9 ng mL-1 for CT DNA, FS DNA and SO RNA, respectively. Owing to performing in near infrared region, this method not only has high sensitivity endowed by RLS technique but also avoids possible spectral interference from background. It has been applied to the determination of nucleic acids in synthetic and real samples and satisfactory results were obtained.